方元行
日期:2021-11-01 阅读次数: 作者: 来源:beat365

 


姓   名: 方元行
性   别:

职   称: 教授(博士生导师)
学   历: 博士
职   务:
电   话:
专   业: 物理化学
电子邮件: yxfang(at)fzu.edu.cn
研究方向: 光电催化



教育工作经历

2008-2012,英国苏赛克斯大学(University of Sussex)本硕连读;

2012-2017,英国苏赛克斯大学(University of Sussex)博士学位;

2017-2019,beat365正版唯一官网能源与环境国家重点实验室,博士后;

2019-2021,beat365正版唯一官网能源与环境国家重点实验室副教授。

2021-至今,旗山学者校聘教授

教学简介

物理化学

科研简介

beat365正版唯一官网能源与环境光催化国家重点实验室成员

https://www.researchgate.net/profile/Yuanxing_Fang


社会兼职

Community board of Nanoscale Horizons



科研项目

主持

国家基金委面上项目(63万元)2020-2023

福建省面上项目(10万元)2020-2023

国家基金委青年基金(23万元)已结题

博士后面上基金(5万元)已结题

博士后特别资助基金(10万元)已结题

参与

国家重点研发计划(2000万元)2020-2025

国家基金委国际交流项目(150万元)2019-2023

中欧地平线计划(500万欧元)2020-2024


代表性论文




52. X. Li, J. Wang, J. Xia, Y. Fang*, Y. Hou, X. Fu, M. Shalom, X. Wang*, One-Pot Synthesis of CoS2 Merged Polymeric Carbon Nitride Films for Photoelectrochemical Water Splitting, ChemSusChem (2022) DOI: 10.1002/cssc.202200330.

51. L. Yang, H. Chen, Y. Xu, R. Qian, Q. Chen,* Y. Fang,* Synergetic effects by Co2+ and PO43- on Mo-doped BiVO4 for an improved photoanodic H2O2 evolution, Chemical Engineering Science (2022) 251, 117435.

50. Y. Fang, Y. Hou, X. Fu, X. Wang*, Semiconducting polymers for oxygen evolution reaction under light illumination, Chemical Reviews (2022) 122, 4204-4256.

49. M. Zhou, H. Ou, S. Li, X. Qin, Y. Fang, S-C. Lee, X. Wang*, W. Ho*, Photocatalytic Air Purification Using Functional Polymeric Carbon Nitrides, Advanced Science (2021) 8, 2102376.

48. J. Xia, M. Gabriel, V. Michael, Y. Fang, H. Chen, X. Wang, S Menny*, Supramolecular Organization of Melem for The Synthesis of Photoactive Porous Carbon Nitride Rods, Nanoscale, (2021) 13, 19511-19517.

47. Y. Wang, Y. Fang,* X. Wang*, Progress of carbon nitride polymers for water splitting, Journal of Fuzhou University (Natural Science Edition), (2021) 49, 0-11.

46. X. Lin, Z. Xie, B. Su, M. Zheng, W. Dai, Y. Hou, Z. Ding,* W. Lin,* Y. Fang,* S. Wang*, Well-defined Co9S8 cages enable the separation of photoexcited
charges to promote visible-light CO2 reduction, Nanoscale (2021) 13, 13, 18070-18076.

45. X. Li, J. Wang, Y. Fang,* H. Zhang, X. Fu, X. Wang,* Roles of Metal-Free Materials in Photoelectrodes for Water Splitting, Account of Materials Research (2021) 2, 933-943.

44. L. Wang, P. Cai, Z Liu, Z. Xie,* Y. Fang,* Role of Carbon Quantum Dots on Nickel Titanate to Promote Water Oxidation Reaction under Visible Light Illumination, Journal of Colloid and Interface Science (2022) 607, 203-209.

43. D. Zheng, L. Yang, W. Chen, Y. Fang,* X. Wang,* Coating polymeric carbon nitride on conductive carbon cloth to promote charge separation for photocatalytic water splitting, ChemSusChem (2021), 14, 3821-3824.

42. Z. Chen, Y. Fang,* L. Wang, X. Chen, W. Lin, X. Wang,* Remarkable oxygen evolution by Co-doped ZnO nanorods and visible light, Applied Catalysis B: Environmental (2021), 296, 120369.

41. Z. Li, Y. Gao, Z. Zhang, Q. Xiong, L. Deng, X. Li, Q. Zhou, Y. Fang, P. Gao,* cPCN-Regulated SnO2 Composites Enables Perovskite Solar Cell with Efficiency Beyond 23%, Nano-Micro Letters (2021) 13, 101.

40. X. Ding, H. Huang, Q. Wan, X. Guan, Y. Fang, S. Lin, D. Chen,* Z. Xie,* Self-template synthesis of hollow Fe-doped CoP prisms with enhanced oxygen evolution reaction activity, Journal of Energy Chemistry (2021)  62, 415-422.

39. A. Hayat, Z. Chen, Z. Luo, Y. Fang, X. Wang,* π-deficient pyridine ring-incorporated carbon nitride polymers for photocatalytic H2 evolution and CO2 fixation, Research on Chemical Intermediates (2021) 47, 15-27.

38. Y. Ma, J. Du, Y. Fang,* X. Wang,* Encapsulation of cobalt oxide into metal‐organic frameworks for an improved photocatalytic CO2 reduction, ChemSusChem (2021) 14, 946-951.

37. Y. Ma, Y. Fang,* X. Fu, X. Wang,* Photoelectrochemical conversion of CO2 into HCOOH using polymeric carbon nitride photoanode and Cu cathode, Sustainable Energy and Fuels, (2020), 4, 5812-5817.

36. Y. Fang, X. Fu, X. Wang,* Diverse polymeric carbon nitride-based semiconductors for photocatalysis and variations, ACS Materials Letters, (2020) 2, 975–980.

35. Y. Fang, Ivan S. Merenkov,* X. Li, J. Xu, S. Lin, M. L. Kosinovaс and X. Wang,* Vertically Aligned 2D Carbon Doped Boron Nitride Nanofilms for Photoelectrochemical Water Oxidation, Journal of Material Chemistry A, (2020), 8, 13059-13064.

34. X. Li, Y. Fang,* X. Fu, X. Wang,* In Situ Synthesis of Phosphorus-Doped Polymeric Carbon Nitride Sheets for Photoelectrochemical Water Oxidation, Solar RRL, (2020), 4, 2000168.

33. Y. Fang,* D. Commandeur, W. C. Lee, Q. Chen,* Transparent conductive oxides in photoanodes for solar water oxidation, Nanoscale Advances, (2020), 2, 626-632.

32. Y. Fang, Y. Zheng, Y. Chen, Y. Zhu, Q. Liang, H. Sheng, Z. Li,* C. Chen,* X. Wang,* Photocatalysis: an overview of recent developments and technological advancements, Science China Chemistry, (2020), 63, 149-181.

31. Y. Fang, X. Li, Y. Wang, C. Giordano, X. Wang*, Gradient sulfur doping along polymeric carbon nitride films as visible light photoanodes for the enhanced water oxidation, Applied Catalysis B: Environmental, (2020), 268, 118398.

30. R. S. Sprick*, Z. Chen, A. J. Cowan,* Y. Bai, C. M. Aitchison, Y. Fang, M. A. Zwijnenburg*, A. I. Cooper*, X. Wang*, Water oxidation with cobalt-loaded linear conjugated polymer Photocatalysts, Angewandte Chemie International Edition (2020) 59, 18695-18700.

29. M. Zheng, W. Cai, Y. Fang, X. Wang,* Nanoscale boron carbonitride semiconductors for photoredox catalysis, Nanoscale (2020) 12, 3593-3604.

28. H. Luo, Y. Liu, S. D. Dimitrov, L. Steier, S. Guo, X. Li, J. Feng, F. Xie, Y. Fang, A. Sapelkin, X. Wang, M-M Titirici,* Pt single-atoms supported on nitrogen-doped carbon dots for highly efficient photocatalytic hydrogen generation, Journal of Material Chemistry A, (2020), 8, 14690-14696.

27. Q. Guo, H. Luo, J. Zhang, Q. Ruan, A. P. Periasamy, Y. Fang, Z. Xie, X. Li, X. Wang, J. Tang, J. Briscoe, M-M Titirici, A. B. Jorge,* The role of carbon dots – derived underlayer in hematite photoanodes, Nanoscale (2020) 12, 20220-20229.

26. X-N. Cao, S. Lian, Y Tong, W. Lin, L. Jia, Y. Fang, X. Wang,* Fluorescent Se-modified carbon nitride nanosheets as biomimetic catalases for free-radical scavenging, Chemical Communications. (2020) 56, 916-919.

25. H. Luo, S. Dimitrov, M. Daboczi, J-S. Kim, Q. Guo, Y. Fang, M-A. Stoeckel, P. Samorì, O. Fenwick, A. B. J. Sobrido, X. Wang, M-M. Titirici,* (2020), ACS Applied Nano Materials, 3, 4, 3371–3381.

24. Y. Fang, X. Li, X. Wang*, Phosphorylation of polymeric carbon nitride photoanodes with increased surface valance electrons for solar water splitting, ChemSusChem, (2019), 17, 2605-2608.

23. T. Rao, Prof. M. L. Saladino, Y. Fang, X. Wang, C. Giordano,* Multimetallic oxynitrides nanoparticles for a new generation of photocatalysts, Chemistry A European Journal, (2019) 25, 16676-16682.

22. Z. Lan, Y. Fang, X. Chen and X. Wang*, Thermal annealing-induced structural reorganization in polymeric photocatalysts for enhanced hydrogen evolution, Chemical Communications. (2019) 55, 7756-7759.

21. Z. Luo, Y. Fang, M. Zhou, X. Wang*, A Borocarbonitride ceramic aerogel for photoredox catalysis, Angewandte Chemie International Edition, (2019) 58, 6033-6037.

20. Y. Fang, X. Li, X. Wang*, Synthesis of polymeric carbon nitride films with adhesive interfaces for solar water splitting devices, ACS Catalysis, (2018), 8, 8774-8780.

19. Y. Fang, Y. Xu. X. Li, Y. M and X. Wang*, Coating polymeric carbon nitride photoanodes on conductive Y:ZnO nanorod arrays for overall water splitting, Angewandte Chemie International Edition, (2018), 57, 9749-9753.

18. Y. Fang, X. Wang*, Photocatalytic CO2 conversion by polymeric carbon nitrides, Chemical Communications (2018) 54, 5674-5687.

17. Y. Fang, Y. Ma, M. Zheng, P. Yang, A. M. Asiri, X. Wang*, Metal–organic frameworks for solar energy conversion by photoredox catalysis, Coordination Chemistry Reviews, (2018) 373, 83-115.

16. Y. Fang, Y. Ma and X. Wang*, Efficient development of Type-II TiO2 heterojunction using electrochemical approach for an enhanced photoelectrochemical water splitting performance, Chinese Journal of Catalysis (2018) 39, 438-445.

15. L. Shen, G. Lei, Y. Fang, Y. Cao, X. Wang* and L. Jiang*, Polymeric carbon nitride nanomesh as an efficient and durable metal-free catalyst for oxidative desulfurization, Chemical Communications (2018) 54, 2475-2478.

14. Z. Pan, P. Niu, Y. Hou,* Y. Fang, M. Liu, X. Wang,* LiCl as Phase-Transfer Catalysts to Synthesize Thin Co2P Nanosheets for Oxygen Evolution Reaction, ChemSusChem (2018) 12, 1911-1915.

13. Z. Lan, Y. Fang, Y. Zhang, X. Wang*. Photocatalytic Oxygen Evolution from Functional Triazine-based Polymers with Tunable Band Structure, Angewandte Chemie International Edition (2018) 57, 470-474.

12. H. Ou, X. Chen, L. Lin, Y. Fang and X. Wang*, Biomimetic Donor-Acceptor Motifs in Conjugated Polymers for Promoting Exciton Splitting and Charge Separation, Angewandte Chemie International Edition (2018) 57, 8729-8733.

11. W. C. Lee, Y. Fang, D. Commandeur, R. Qian, Z. T. Y. Al-Abdullah, Q. Chen, Ultra rapid direct heating synthesis of ZnO nanorods with improved light trapping from stacked photoanodes for high efficiency photocatalytic water splitting, Nanotechnology (2017), 28, 355402.

10. Y. Fang, X. Wang*. Metal-Free Boron-Containing Heterogeneous Catalysts, Angewandte Chemie International Edition (2017) 56, 2-15.

9. H. Ou, L. Lin, Y. Zheng, P. Yang, Y. Fang, X. Wang*. Tri-s-triazine-Based Crystalline Carbon Nitride Nanosheets for an Imporved Hydrogen Evolution. Advanced Materials (2017) 29, 1700008.

8. P. Yang, H Ou, Y. Fang, X. Wang*. A Facile Steam Reforming Strategy to Delaminate Layered Carbon Nitride Semiconductor for Photoredox Catalysis. Angewandte Chemie International Edition (2017) 56, 1-6.

7.  J. Wei, J. Dong, S. Zhuo, R. Qian,* Y. Fang, Q. Chen*, E. Patel, Signal enhancement with stacked magnets for high-resolution radio frequency glow discharge mass spectrometry, Analytical Chemistry (2017) 89, 1382-1388.

6. W. C. Lee, Y. Fang*, J. F. C .Turner, J. S. Bedi, C. C. Perry, H. He, Q. Chen*. An Enhanced Gas Ionization Sensor from Y-doped Vertically Aligned Conductive ZnO Nanorods, Sensor and Actuators: B Chemistry (2016) 237, 724-732.

5. Y. Fang, J. Tong, Q. Zhong, Q. Chen. J. Zhou, Q. Lou*, Y. Zhou*, Z. L. Wang. B. Hu*. Solution Process Flexible Hybrid Cell for Concurrently Scavenging Solar and Mechanical Energies, Nano Energy, (2015) 16, 301-309.

4. W. C. Lee, Y. Fang, R. Kler, G. E. Canciani, T. C. Draper, Z. T. Y. Al-Abdullah, S. M. Alfadul, C. C. Perry, H. He, Q. Chen, Marangoni ring-templated vertically aligned ZnO nanotube arrays with enhanced photocatalytic hydrogen production, Materials Chemistry and Physics (2015) 149-150, 12-16.

3. Y. Fang, W. C. Lee, G. E. Canciani, T. C. Draper, Z. F .Al-Bawi, J. S. Bedi, C. C. Perry, Q. Chen*. Thickness Control in Electrophoretic Deposition of WO3 Nanofiber Thin Films for Solar Water Splitting, Material Science and Engineering B (2015) 202, 39-45.

2. H. Xia, Q. Chen, Y. Fang, D. Liuc, D. Zhong, H. Wu, Y. Xia, Y. Yan, W. Tang, X. Sun, Directed neurite growth of rat dorsal root ganglion neurons and increased colocalization with Schwann cells on aligned poly(methyl methacrylate) electrospun nanofibers, Brain Research (2014) 1565, 18-27.

1. J. S. Bedi, D. Lester, Y. Fang, J. Turner, J. Zhou, S. M. Alfadul, C. C. Perry, Q. Chen, Electrospinning of poly(methyl methacrylate) nanofibers in a pump-free process, Journal of Polymer Engineering 2013, 33, 453-461.








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